柑橘黄龙病菌与柑橘根系关系研究进展
|
摘要
由柑橘黄龙病菌(Candidatus Liberibacter spp.)引起的柑橘黄龙病是一种极具破坏性的柑橘病害,严重影响柑橘产业的可持续发展。目前关于柑橘黄龙病的研究多以柑橘叶片为研究对象,而柑橘黄龙病是一种系统性病害,其症状在柑橘叶片、果实和根系上均有表现。近年来,越来越多的研究从根系的营养、基因和蛋白表达、根际微生物等角度研究柑橘黄龙病菌对柑橘根系的影响,因此就柑橘黄龙病菌与柑橘根系关系的最新研究结果进行综述,以期为系统开展柑橘黄龙病菌与柑橘根系互作关系的研究提供有益的借鉴和参考。
Citrus Huanglongbing( HLB),caused by Candidatus Liberibacter spp.,is a fatal disease on citrus.HLB has become a factor that limited the sustainable development of citrus industry. Most previous studies on HLB have focus on citrus leaves. However,HLB is a systemic disease,the infected citrus trees show representative symptoms on leaves,fruits and root. Now,more and more studies on HLB from multiple angles,such as root nutrition,the expression of gene and protein,rhizosphere microorganism. In this paper,we summarized the latest research on the relationship between C. Liberibacter spp. and citrus root system,which could provide references for the research on the interaction between C. Liberibacter spp. and citrus root system.
Citrus Huanglongbing( HLB),caused by Candidatus Liberibacter spp.,is a fatal disease on citrus.HLB has become a factor that limited the sustainable development of citrus industry. Most previous studies on HLB have focus on citrus leaves. However,HLB is a systemic disease,the infected citrus trees show representative symptoms on leaves,fruits and root. Now,more and more studies on HLB from multiple angles,such as root nutrition,the expression of gene and protein,rhizosphere microorganism. In this paper,we summarized the latest research on the relationship between C. Liberibacter spp. and citrus root system,which could provide references for the research on the interaction between C. Liberibacter spp. and citrus root system.
引文
[1]Gottwald T R.Currentepidemiological understanding of citrus huanglongbing[J].Annu Rev Phytopathol,2010,48(48):119-139.
[2]胡文召,周常勇.柑橘黄龙病病原研究进展[J].植物保护,2010,36(3):30-33.
[3]周春娜,吴仕豪,曹俐.广东柑橘黄龙病发生情况与防控对策浅析[J].中国植保导刊,2015,35(1):68-69.
[4]Gottwald T R,Gra?a J V D,Bassanezi R B.Citrus Huanglongbing:the pathogen and its impact[J].Plant Health Prog,2007,(doi:10.1094/PHP-2007-0906-01-RV).
[5]范国成,刘波,吴如健,等.中国柑橘黄龙病研究30年[J].福建农业学报,2009,24(2):183-190.
[6]宋晓兵,彭埃天,陈霞,等.柑橘黄龙病病原培养及分子检测技术研究进展[J].广东农业科学,2013,40(23):65-69.
[7]许美容,戴泽翰,孔维文,等.基于分子技术的柑橘黄龙病研究进展[J].果树学报,2015,32(2):322-334.
[8]Munir S,He P,Wu Y,et al.Huanglongbing control:perhaps the end of the beginning[J].Microb Ecol,2017:1-13.
[9]Texeira D C,Ayres J,Kitajima E W,et al.First report of a Huanglongbing-like disease of citrus in Sao Paulo State,Brazil and association of a new liberibacter species,‘Candidatus Liberibacter americanus’,with the disease[J].Plant Dis,2005,89:107.
[10]徐长宝,杜育映,邓文胜,等.柑桔根系接触与黄龙病传播关系的研究[J].中国南方果树,2015,44(4):1-4.
[11]Folimonova S Y,Achor D S.Early events of citrus greening(Huanglongbing)disease development at the ultrastructural level[J].Phytopathology,2010,100(9):949-958.
[12]Bassanezi R B,Montesino L H,Stuchi E S.Effects of huanglongbing on fruit quality of sweet orange cultivars in Brazil[J].Eur J Plant Pathol,2009,125:565-572.
[13]Baldwin E,Plotto A,Manthey J,et al.Effect of liberibacter infection(Huanglongbing disease)of citrus on orange fruit physiology and fruit/fruit juice quality:chemical and physical analyses[J].J Agric Food Chem,2010,58(2):1247-1262.
[14]Tatineni S,Sagaram U S,Gowda S,et al.In planta distribution of‘Candidatus Liberibacter asiaticus’as revealed by polymerase chain [J].Phytopathology,2008,98(5):592-599.
[15]Bassanezi R B,Montesino L H,Gasparoto M CG,et al.Yield loss caused by huanglongbing in different sweet orange cultivars in S?o Paulo,Brazil[J].Eur J Plant Pathology,2011,130(4):577-586.
[16]Graham J H,Johnson E G,Gottwald T R,et al.Presymptomatic fibrous root decline in citrus trees caused by Huanglongbing and potential interaction with Phytophthora spp[J].Plant Dis,2013,97(9):1195-1199.
[17]Johnson E G,Wu J,Bright D B,et al.Association of‘Candidatus Liberibacter asiaticus’root infection,but not phloem plugging with root loss on huanglongbing‐affected trees prior to appearance of foliar symptoms[J].Plant Pathol,2014,63(2):290-298.
[18]樊卫国,罗燕.不同磷水平下4种柑橘砧木的生长状况、根系形态和生理特性[J].中国农业科学,2015,48(3):534-545.
[19]Wu J,Johnson E G,Bright D B,et al.Interaction between Phytophthora nicotianae and Candidatus Liberibacter asiaticus damage to citrus fibrous roots[J].J Cit r us Pat hol,2 017,4(1):iocv_journalcitrus-pathology_35789.
[20]K im J S,S a ga ram U S,Bur ns J K,et a l.Response of sweet orange(Citrus sinensis)to‘Candidatus Liberibacter asiaticus’infection:microscopy a nd microa r ray a na lyses[J].Phytopathology,2009,99(1):50-57.
[21]Etxeber r ia E,G onzalez P,Achor D,et al.Anatomical distribution of abnormally high levels of starch in HLB-affected Valencia orange trees[J].Physiol Mol Plant Pathol,2009,74(1):76-83.
[22]Wu J,Johnson E G,Gerberich K M,et al.Contrasting canopy and fibrous root damage on Swingle citrumelo caused by‘Candidatus L i b er ibacter a siat icus’a nd Phytophthora nicotianae[J].Plant Pathol,2018,67:202-209.
[23]Aritua V,Achor D,Gmitter F G,et al.Transcriptional and microscopic analyses of citrus stem and root responses to Candidatus Liberibacter asiaticus infection[J].PLoS One,2013,8(9):e73742.
[24]Zhong Y,Cheng C Z,Jiang N H,et al.Comparative transcriptome and iTRAQ proteome analyses of citrus root responses to Candidatus Liberibacter asiaticus infection[J].PLoS One,2015,10(6):e0126973.
[25]Fa n J,Chen C,Yu Q,et a l.Compa rat ive transcriptional and anatomical analyses of tolerant rough lemon and susceptible sweet orange in response to‘Candidatus Liberibacter asiaticus’infection[J].Mol Plant Microbe Interact.2012,25(11):1396-1407.
[26]Chen C,Du D,Yu F,et al.Reprogramming of a defense signaling pathway in rough lemon and sweet orange is a critical element of the early response to‘Candidatus Liberibacter asiaticus’[J].Hortic Res,2017,4:17063.
[27]Albrecht U,Bowman K D.Transcriptional response of susceptible and tolerant citrus to infection with Candidatus Liberibacter asiaticus[J].Plant Sci,2012,185/186:118-130.
[28]Wang Y,Zhou L,Yu X,et al.Transcriptome profiling of Huanglongbing(HLB)tolerant and susceptible citrus plants reveals the role of basal resistance in HLB tolerance[J].Front Plant Sci,2016,7:933.
[29]Hu Y,Zhong X,Liu X,et al.Comparative transcriptome analysis unveils the tolerance mechanisms of Citrus hystrix in response to‘Candidatus Liberibacter asiaticus’infection[J].PLoS One,2017,12(12):e0189229.
[30]Reinholdhurek B,Bünger W,Burbano C S,et al.Roots shaping their microbiome:global hotspots for microbial activity[J].Annu Rev Phytopathol,2015,53(1):403-424.
[31]吴晓青,周方园,张新建.微生物组学对植物病害微生物防治研究的启示[J].微生物学报,2017,57(6):867-875.
[32]Blaustein R A,Lorca G L,Meyer J L,et al.Defining the Core Citrus Leaf-and RootAssociated Microbiota:Factors Associated with Community Structure and Implications for Managing Huanglongbing(Citrus Greening)Disease[J].Appl Environ Microbiol,2017,83(11):AEM.00210-17.
[33]Trivedi P,Duan Y P,Wang N.Huanglongbing,a systemic disease,restructures the bacterial community associated with citrus roots[J].Appl Environ Microbiol,2010,76(11):3427-3436.
[34]Zhang Y Z,Xu J,Riera N,et al.Huanglongbing impairs the rhizosphere-torhizoplane nrichment process of the citrus root-associated microbiome[J].Microbiome,2017,5:97.
[35]涂祖新,张莉莉,贺伟华,等.赣南脐橙黄龙病株与健康株的根际土壤真菌群落多样性比较[J].安徽农业大学学报,2017(2):333-341.
[36]Tr ivedi P,He Z,Van Nostrand J D,et a l.Huanglongbing alters the structure and functional diversity of microbial communities associated with citrus rhizosphere[J].Isme J,2012,6(2):363-383.
[37]Wang N,Stelinski L,Pelz-Stelinski K,et al.Tale of the Huanglongbing disease pyramid in the context of the citrus phytobiome[J].Phytopathology,2017,107(4):380-387.
[38]Santoyo G,Moreno-Hagelsieb G,OrozcoMosqueda M C,et al.Plant growth-promoting bacterial endophytes[J].Microbiol Res,2016,183(5):92-99.
[39]Verma J P,Yadav J,Tiwari K N,et al.Impact of plant growth promoting rhizobacteria on crop production[J].Int J Agric Res,2010(5):954-983.
[40]Shin K,Bruggen A H C V.Bradyrhizobium isolated from huanglongbing(HLB)affected citrus trees reacts positively with primers for Candidatus Liberibacter asiaticus[J].Eur JPlant Pathol,2017(8):1-16.
[41]De C D,Van T S,Cleenwerck I,et al.Rhodanobacter spathiphylli sp.nov.a gammaproteobacterium isolated from the roots of Spathiphyllum plants grown in a compost-amended potting mix[J].Int J Syst Evol Microbiol,2006,56:1755-1759.
[42]Compa nt S,Reiter B,S e ssit sch A,et a l.Endophytic colonization of Vitis vinifera L.by plant growth-promoting bacterium Burkholderia sp.strain PsJN[J].Appl Environ Microbiol,2005,71(4):1685-1693.
[43]Trivedi P,Spann T,Wang N.Isolation and characterization of beneficial bacteria associated with citrus roots in Florida[J].Microb Ecol,2011,62(2):324-336.
[2]胡文召,周常勇.柑橘黄龙病病原研究进展[J].植物保护,2010,36(3):30-33.
[3]周春娜,吴仕豪,曹俐.广东柑橘黄龙病发生情况与防控对策浅析[J].中国植保导刊,2015,35(1):68-69.
[4]Gottwald T R,Gra?a J V D,Bassanezi R B.Citrus Huanglongbing:the pathogen and its impact[J].Plant Health Prog,2007,(doi:10.1094/PHP-2007-0906-01-RV).
[5]范国成,刘波,吴如健,等.中国柑橘黄龙病研究30年[J].福建农业学报,2009,24(2):183-190.
[6]宋晓兵,彭埃天,陈霞,等.柑橘黄龙病病原培养及分子检测技术研究进展[J].广东农业科学,2013,40(23):65-69.
[7]许美容,戴泽翰,孔维文,等.基于分子技术的柑橘黄龙病研究进展[J].果树学报,2015,32(2):322-334.
[8]Munir S,He P,Wu Y,et al.Huanglongbing control:perhaps the end of the beginning[J].Microb Ecol,2017:1-13.
[9]Texeira D C,Ayres J,Kitajima E W,et al.First report of a Huanglongbing-like disease of citrus in Sao Paulo State,Brazil and association of a new liberibacter species,‘Candidatus Liberibacter americanus’,with the disease[J].Plant Dis,2005,89:107.
[10]徐长宝,杜育映,邓文胜,等.柑桔根系接触与黄龙病传播关系的研究[J].中国南方果树,2015,44(4):1-4.
[11]Folimonova S Y,Achor D S.Early events of citrus greening(Huanglongbing)disease development at the ultrastructural level[J].Phytopathology,2010,100(9):949-958.
[12]Bassanezi R B,Montesino L H,Stuchi E S.Effects of huanglongbing on fruit quality of sweet orange cultivars in Brazil[J].Eur J Plant Pathol,2009,125:565-572.
[13]Baldwin E,Plotto A,Manthey J,et al.Effect of liberibacter infection(Huanglongbing disease)of citrus on orange fruit physiology and fruit/fruit juice quality:chemical and physical analyses[J].J Agric Food Chem,2010,58(2):1247-1262.
[14]Tatineni S,Sagaram U S,Gowda S,et al.In planta distribution of‘Candidatus Liberibacter asiaticus’as revealed by polymerase chain [J].Phytopathology,2008,98(5):592-599.
[15]Bassanezi R B,Montesino L H,Gasparoto M CG,et al.Yield loss caused by huanglongbing in different sweet orange cultivars in S?o Paulo,Brazil[J].Eur J Plant Pathology,2011,130(4):577-586.
[16]Graham J H,Johnson E G,Gottwald T R,et al.Presymptomatic fibrous root decline in citrus trees caused by Huanglongbing and potential interaction with Phytophthora spp[J].Plant Dis,2013,97(9):1195-1199.
[17]Johnson E G,Wu J,Bright D B,et al.Association of‘Candidatus Liberibacter asiaticus’root infection,but not phloem plugging with root loss on huanglongbing‐affected trees prior to appearance of foliar symptoms[J].Plant Pathol,2014,63(2):290-298.
[18]樊卫国,罗燕.不同磷水平下4种柑橘砧木的生长状况、根系形态和生理特性[J].中国农业科学,2015,48(3):534-545.
[19]Wu J,Johnson E G,Bright D B,et al.Interaction between Phytophthora nicotianae and Candidatus Liberibacter asiaticus damage to citrus fibrous roots[J].J Cit r us Pat hol,2 017,4(1):iocv_journalcitrus-pathology_35789.
[20]K im J S,S a ga ram U S,Bur ns J K,et a l.Response of sweet orange(Citrus sinensis)to‘Candidatus Liberibacter asiaticus’infection:microscopy a nd microa r ray a na lyses[J].Phytopathology,2009,99(1):50-57.
[21]Etxeber r ia E,G onzalez P,Achor D,et al.Anatomical distribution of abnormally high levels of starch in HLB-affected Valencia orange trees[J].Physiol Mol Plant Pathol,2009,74(1):76-83.
[22]Wu J,Johnson E G,Gerberich K M,et al.Contrasting canopy and fibrous root damage on Swingle citrumelo caused by‘Candidatus L i b er ibacter a siat icus’a nd Phytophthora nicotianae[J].Plant Pathol,2018,67:202-209.
[23]Aritua V,Achor D,Gmitter F G,et al.Transcriptional and microscopic analyses of citrus stem and root responses to Candidatus Liberibacter asiaticus infection[J].PLoS One,2013,8(9):e73742.
[24]Zhong Y,Cheng C Z,Jiang N H,et al.Comparative transcriptome and iTRAQ proteome analyses of citrus root responses to Candidatus Liberibacter asiaticus infection[J].PLoS One,2015,10(6):e0126973.
[25]Fa n J,Chen C,Yu Q,et a l.Compa rat ive transcriptional and anatomical analyses of tolerant rough lemon and susceptible sweet orange in response to‘Candidatus Liberibacter asiaticus’infection[J].Mol Plant Microbe Interact.2012,25(11):1396-1407.
[26]Chen C,Du D,Yu F,et al.Reprogramming of a defense signaling pathway in rough lemon and sweet orange is a critical element of the early response to‘Candidatus Liberibacter asiaticus’[J].Hortic Res,2017,4:17063.
[27]Albrecht U,Bowman K D.Transcriptional response of susceptible and tolerant citrus to infection with Candidatus Liberibacter asiaticus[J].Plant Sci,2012,185/186:118-130.
[28]Wang Y,Zhou L,Yu X,et al.Transcriptome profiling of Huanglongbing(HLB)tolerant and susceptible citrus plants reveals the role of basal resistance in HLB tolerance[J].Front Plant Sci,2016,7:933.
[29]Hu Y,Zhong X,Liu X,et al.Comparative transcriptome analysis unveils the tolerance mechanisms of Citrus hystrix in response to‘Candidatus Liberibacter asiaticus’infection[J].PLoS One,2017,12(12):e0189229.
[30]Reinholdhurek B,Bünger W,Burbano C S,et al.Roots shaping their microbiome:global hotspots for microbial activity[J].Annu Rev Phytopathol,2015,53(1):403-424.
[31]吴晓青,周方园,张新建.微生物组学对植物病害微生物防治研究的启示[J].微生物学报,2017,57(6):867-875.
[32]Blaustein R A,Lorca G L,Meyer J L,et al.Defining the Core Citrus Leaf-and RootAssociated Microbiota:Factors Associated with Community Structure and Implications for Managing Huanglongbing(Citrus Greening)Disease[J].Appl Environ Microbiol,2017,83(11):AEM.00210-17.
[33]Trivedi P,Duan Y P,Wang N.Huanglongbing,a systemic disease,restructures the bacterial community associated with citrus roots[J].Appl Environ Microbiol,2010,76(11):3427-3436.
[34]Zhang Y Z,Xu J,Riera N,et al.Huanglongbing impairs the rhizosphere-torhizoplane nrichment process of the citrus root-associated microbiome[J].Microbiome,2017,5:97.
[35]涂祖新,张莉莉,贺伟华,等.赣南脐橙黄龙病株与健康株的根际土壤真菌群落多样性比较[J].安徽农业大学学报,2017(2):333-341.
[36]Tr ivedi P,He Z,Van Nostrand J D,et a l.Huanglongbing alters the structure and functional diversity of microbial communities associated with citrus rhizosphere[J].Isme J,2012,6(2):363-383.
[37]Wang N,Stelinski L,Pelz-Stelinski K,et al.Tale of the Huanglongbing disease pyramid in the context of the citrus phytobiome[J].Phytopathology,2017,107(4):380-387.
[38]Santoyo G,Moreno-Hagelsieb G,OrozcoMosqueda M C,et al.Plant growth-promoting bacterial endophytes[J].Microbiol Res,2016,183(5):92-99.
[39]Verma J P,Yadav J,Tiwari K N,et al.Impact of plant growth promoting rhizobacteria on crop production[J].Int J Agric Res,2010(5):954-983.
[40]Shin K,Bruggen A H C V.Bradyrhizobium isolated from huanglongbing(HLB)affected citrus trees reacts positively with primers for Candidatus Liberibacter asiaticus[J].Eur JPlant Pathol,2017(8):1-16.
[41]De C D,Van T S,Cleenwerck I,et al.Rhodanobacter spathiphylli sp.nov.a gammaproteobacterium isolated from the roots of Spathiphyllum plants grown in a compost-amended potting mix[J].Int J Syst Evol Microbiol,2006,56:1755-1759.
[42]Compa nt S,Reiter B,S e ssit sch A,et a l.Endophytic colonization of Vitis vinifera L.by plant growth-promoting bacterium Burkholderia sp.strain PsJN[J].Appl Environ Microbiol,2005,71(4):1685-1693.
[43]Trivedi P,Spann T,Wang N.Isolation and characterization of beneficial bacteria associated with citrus roots in Florida[J].Microb Ecol,2011,62(2):324-336.